The SmartGrid concept stands for connection and control of energy sources; its storage and load owe to an “intelligent” power grid. Using Smart Grid technologies will assist in making the energy transition to 100% renewables more affordable.

The leXsolar-SmartGrid Ready-to-go kit allows the construction of a smart grid with a variety of renewable energy sources. It’s possible to choose different energy generation profiles and observe their effect on the system. The various available storage units and consumers make for a complex smart grid and a multitude of possible scenarios to analyse. The energy flows within the smart grid can be read directly from the displays of the smart meters. This enables the students to control the system manually. All necessary SmartControl components for measuring and control are already included. The package includes wind and solar power as well as fuel cell, storage technology and e-mobility components and, thus, also the foundation for a variety of basic experiments.

Description:

Training concepts include:

Basic experiments on photovoltaic

The I-V-characteristic of a solar module

The I-V-characteristic of a solar module depending on the illuminance

The I-V-characteristic of a solar module depending on the temperature

Basic experiments on wind power

The dependence of the power on the pitch angle and the blade design

The dependence of the power on the number of blades

The dependence of the power on the wind direction

Basic experiments on energy storage technologies

The I-V-characteristic of an electrolyser

Behaviour of the voltage and the current during charging of an electrolyser

The I-V-characteristic of a fuel cell

Behaviour of the voltage and the current during discharging a fuel cell

The t-V- and t-I-characteristic of a capacitor during charging

The t-V- and t-I-characteristic of a capacitor during discharging

The use of the electric car with capacitor and fuel cell

The power fluctuations of a photovoltaic station

The power fluctuations of a wind turbine

Energy supply of a building by a power plant

Energy supply of a building by a power plant and a photovoltaic station

Energy supply of a building by a power plant, a photovoltaic station and an energy storage

The behaviour of the voltage in a conventional line grid

The behaviour of the voltage in a line grid with photovoltaic station

The behaviour of the voltage in a line grid with photovoltaic station depending on the consumption

The behaviour of the voltage in a line grid with photovoltaic station depending on the distance to the transformer

The behaviour of the voltage in a line grid with photovoltaic station and an intelligent transformer station

The behaviour of the voltage in a line grid with photovoltaic station and an energy storage (fuel cell / E-Mobility)

The behaviour of the voltage in a line grid with photovoltaic station and load management